2021年- 2024年
[39] Bohua Zhang, Siqi Liu, Jiangxue Pei, Meiting Luo, Yi Chen, Qingyu Jia, Zhaoxin Wu, Dongdong Wang*, Efficient Red Thermally Activated Delayed Fluorescence Emitter Achieved Through Precise Control of Excited State Energy Levels. Chem. Sci., 2024, DOI: 10.1039/D4SC00535J.
[38] MingXin Wu‡, ChuanMing Wu‡, BoHua Zhang, MeiTing Luo, Lei Gou*, DongDong Wang*, The effect of molecular configuration and donor on the photophysical properties of 2-phenylfuro[2,3-b]quinoxaline based emitters. New J. Chem., 2024, 48, 4320-4327.
[37] MeiTing Luo‡, MingXin Wu‡, BoHua Zhang, XinYe Wang, Yi Chen, QingYu Jia, Dongdong Wang*, Lei Gou, Zhaoxin Wu. Tuning the number and position of triphenylamine substituents on a benzo[b]furan core to achieve high-efficiency deep-blue and blue emitters. J. Mater. Chem. C, 2024,12, 1289-1296.
[36] ChuanMing Wu‡, Mingxin Wu‡, BoHua Zhang, MeiTing Luo, DongDong Wang*, Yong Wu, GuoXin Yang, Lei Gou, ZhaoXin Wu. The effect of p-linker bulk on the photophysical properties of 2-phenylfuro[2,3b]quinoxaline-based FQ–π–FQ-type compounds. New J. Chem. 47, 2023, 7182.
[35] XinYe Wang, YiXiang Li, Yuan Wu, Ke Qin, DeFei Xu, DongDong Wang*, HuiLi Ma*, ShuYa Ning, ZhaoXin Wu. A 2-phenylfuro[2,3-b]quinoxaline-triphenylamine based emitter: photophysical properties and application in TADF-sensitized fluorescence OLEDs. New Journal of Chemistry. 46. 2022. 18854.
[34] ShuYa Ning, YiFan Zhang, YiXiang Li, Yuan Wu, Ke Qin, DongDong Wang*, XinYe Wang, ChuanMing Wu, HuiLi Ma. Benzene[g]furan[2,3-B]quinoxaline-based red fluorescent material for non-doped organic light-emitting devices with low efficiency roll-off. Chemical Physics Letters. 787. 2022. 139199.
[33] XinYe Wang, YiFan Zhang, Yu Ze, Wu Yuan, DongDong Wang*, ChuanMing Wu, HuiLi Ma*, ShuYa Ning, Hua Dong, ZhaoXin Wu. Overcoming energy loss of thermally activated delayed fluorescence sensitized-OLEDs by developing a fluorescent dopant with a small singlet–triplet energy splitting. Journal of Materials Chemistry C. 10. 2022, 1681.
[32] ChuanMing Wu, YiXiang Li, Ze Yu, MeiTing Luo, DongDong Wang*, XinYe Wang, HuiLi Ma. Evaluating effect of donors and their linking position on photophysical properties of 2-phenylfuro[2,3-b]quinoxaline-based donor-π-acceptor molecules. Chemical Physics Letters, 795. 2022. 139529.
[31] YiXiang Li, Yong Wu, ZhengSheng Qin, Gang Wang, Yuan Wu, DongDong Wang*, YiFan Zhang, XinYe Wang, ChuanMing Wu, HuanLi Dong*. Substitution effect on solid parking motif and luminescence of diphenylfuro[2,3-b]quinoxaline isomers, Organic Electronics, 101. 2022. 106416.
[30] Xinye Wang, Yuan Wu, Chuanming Wu, Yixiang Li, Dongdong Wang*, Yong Wu, Shuya Ning, Bo Jiao, Zhaoxin Wu. Dibenzo[f,h]furo[2,3-b]quinoxaline-based molecular scaffolds as deep blue fluorescence materials for organic light-emitting diodes. New Journal of Chemistry, 2021, 46, 419-425.
2011年- 2019年
[29] Gang Wang, Jie Lib, Yixiang Li, Dongdong Wang*, Jingjing Zhang, Yong Wu, Yong-gang Zhen*, Qingxin Tang, Hong Ma*, Wenping Hu, Zhaoxin Wu, Alex K.-Y. Jeng, new type of solid-state luminescent 2-phenylbenzo[g]furo[2,3-B]quinoxaline derivatives: synthesis, photophysical characterization and transporting properties, J. Mater. Chem. C. 2019, 7, 9690-9697.
[28] Feijie Wei, Bo Jiao, Hua Dong, * Jie Xu, Ting Lei, Junjie Zhang, Yue Yu, Lin Ma, Dongdong Wang, Jinbo Chen, Xun Hou and Zhaoxin Wu, Bifunctional pi-conjugated ligand assisted stable and efficient perovskite solar cells via interfacial stitching, J. Mater. Chem. A, 2019,7, 16533-16540
[27] Hua Dong, Jun Xi, Lijian Zuo, Jingrui Li, Yingguo Yang, Dongdong Wang, Yue Yu, Lin Ma, Chenxin Ran, Weiyin Gao, Bo Jiao, Jie Xu, Ting Lei, Feijie Wei, Fang Yuan, Lin Zhang, Yifei Shi, Xun Hou, and Zhaoxin Wu* Conjugated Molecules “Bridge”: Functional Ligand toward Highly Efficient and Long-Term Stable Perovskite Solar Cell, Advanced. Functional. Materials. 2019, 1808119.
[26] Yue Yu, Lin Ma, Xiaolong Yang, Huixin Zhou, Hanlin Qin, Jiangluqi Song,Guijiang Zhou,* Dongdong Wang, and Zhaoxin Wu, High Efficiency Fluorescent Electroluminescence with Extremely Low Efficiency Roll-Off Generated by a Donor–Bianthracene–Acceptor Structure: Utilizing PerpendicularTwisted Intramolecular Charge Transfer Excited State, Advanced. Optical Materials. 2018, 6, 1800060.
[25] Yue Yu, Lin Ma, Dongdong Wang, Huixin Zhou, Bo Yao, Zhaoxin Wu, Suppression of efficiency roll-off in TADF-OLEDs using Ag-island nanostructures with localized surface plasmon resonance effect, Organic Electronics, 51. 2017. 173-179.
[24] Dongdong Wang*, Hua Dong, Xiaoyu Zhang, Yong Wu, Shaohua Shen, Bo Jiao, Zhaoxin Wu*, Min Gao, Geng Wang, Effect of diphenylamine substituent on charge-transfer absorption features of the iridiumcomplexes and application in dye-sensitized solar Cell, Journal of Organometallic Chemistry, 775. 2015. 55.
[23] Dongdong Wang*, Qingqing Liu, Yue Yu, Yong Wu, Xinwen Zhang*, Hua Dong, Lin Ma, Guijiang Zhou, Bo Jiao, Zhaoxin Wu*. Silafluorene moieties as promising building blocks for constructing wide-energy-gap host materials of blue phosphorescent organic light-emitting devices, Science China-Chemistry, 2015, 58, 933.
[22] Dongdong Wang*, Hua Dong, Xiaoli Lei, Yue Yu, Bo Jiao, Zhaoxin Wu*. Iridium Complexes for Triplet Photosensitizer, Progress in Chemistry, 2015, 27, 492.
[21] Dongdong Wang*, Hua Dong, Xiaoyu Zhang, Yong Wu, Shaohua Shen, Bo Jiao, Zhaoxin Wu*, Min Gao, Geng Wang, Dicyanovinyl-unit-induced absorption enhancement of iridium(III) complexes in long-wavelength range and potential application in dye-sensitized solar cells, Science China-Chemistry, 2015, 58,658.
[20] Xiaolong Yang, Xianbin Xu, Jiang Zhao, Jingshuang Dang, Zuan Huang, Xiaogang Yan, Guijiang Zhou*, Dongdong Wang*, Phosphorescent Platinum(II) Complexes Bearing 2-Vinylpyridine-type Ligands: Synthesis, Electrochemical and Photophysical Properties, and Tuning of Electrophosphorescent Behavior by Main-Group Moieties, Inorganic Chemistry, 53 .2014. 12986.
[19] DongDong Wang*,Yong Wu,Hua Dong,ZhiXiao Qin,Dan Zhao,Yue Yu,GuiJiang Zhou Bo Jiao, ZhaoXin Wu,Min Gao, Geng Wang, Iridium (III) complexes with 5,5-dimethyl-3-(pyridin-2-yl)cyclohex-2-enone ligands as sensitizer for dye-sensitizedsolar cells, Organic Electronics, 14 .2013. 3297–3305.
[18] Dongdong Wang*, Yong Wu, Bo Jiao, Hua dong, Guijiang Zhou, Geng Wang, Zhaoxin Wu, Wide tuning of emission color of iridium (III) complexes from green to deep red via dicyanovinyl substituent effect on 2-phenylpyridine ligands, Organic Electronics, 14. 2013. 2233–2242.
[17] Dongdong Wang, Zhaoxin Wu, Xiaoli Lei, Wenwen Zhang, Bo Jiao, Dawei Wang, and Xun Hou, Electroluminescence of solution-processed organic light-emitting diodes based on fluorescent small molecules and polymer as hole-transporting layer, Phys. Status Solidi A, 210. 2013. 2556-2560.
[16] Yue Yu, Zhaoxin Wu, Zhanfeng Li, Bo Jiao, Lu Li, Lin Ma, Dongdong Wang, Guijiang Zhou, Xun Hou, Highly efficient deep-blue organic electroluminescent devices (CIEV ap 0.08) doped with fluorinated 9,9'-bianthracene derivatives (fluorophores), Journal of Materials Chemistry C, 1. 2013. 48.
[15] Zhanfeng Li, Zhaoxin Wu*, Wen Fu, Dongdong Wang, Peng Liu, Bo Jiao, Xiaoli Lei, Guijiang Zhou, Yuying Hao, Stable amorphous bis(diarylamino)biphenyl derivatives as hole-transporting materials in OLEDs, Electronic Materials Letter, 9. 2013. 655.
[14] Xinwen Zhang, Zhaoxin Wu*, Bo Jiao, Dongdong Wang, Dawei Wang, Xun Hou. White organic light-emitting devices with a solution-processed small molecular emission layer, Display, 33. 2012. 129.
[13] Zhanfeng Li, Zhaoxin Wu, Bo Jiao, Peng Liu, Dongdong Wang, Xun Hou. Novel 2,4-difluorophenyl-functionalized arylamine as hole-injecting/hole-transporting layers in organic light-emitting devices, Chemical Physics Letters, 527. 2012. 36.
[12] Xinwen Zhang, Zhaoxin Wu*, Dongdong Wang, Dawei Wang, Xun Hou, Effects of Dilution and Charge Trapping on the Performance of a Light-Emitting Diode of Poly(9-vinylcarbazole) Doped with Poly[2-methoxy-5-(2 '-ethyl hexyloxy)-1,4-phenylene vinylene], Jorunal of Applied Polymer Science, 117. 2011. 1213.
2010年之前
[11] Xinwen Zhang, Zhaoxin Wu*, Dawei Wang, Dongdong Wang, Runlin He, Xun Hou, Solution-processed p-doped hole-transport layer and its application in organic light-emitting diodes. Applied Surface Science. 256. 2010. 4468.
[10] Dongdong Wang, Wu Zhaoxin, Zhang Xinwen, et al.Solution-processed organic films of multple small-molecules and white organic light-emitting diodes. Organic Electronic. 11. 2010. 641-648.
[9] Dongdong Wang, Zhaoxin Wu, Xinwen Zhang, Xun Hou,Solution-processed white organic light-emitting devices based on small-molecule materials. Luminescence. 130. 2010.321-325.
[8] Dongdong Wang, Zhaoxin Wu, Xinwen Zhang, Bo Jiao, Xun Hou, White organic light-emitting diodes by spin-coating molecular mixed host. Chinese Science Bulletin.55. 2010.986-991.
[7] Dongdong Wang, Zhaoxin Wu, Xou Hou. Electrochemiluminescence studies of phosphorescent dopant and host molecule of Polymer light-emitting diodes. Chinese Journal Chemistry. 28. 2010. 1395-1399.
[6] Lin He, Junfeng Liu, Zhaoxin Wu*, Dongdong Wang, Shixiong Liang, Xinwen Zhang, Bo Jiao, Dawei Wang, Xun Hou, Solution-processed small molecule thin films and their light-emitting devices. Thin Solid Film. 518. 2010. 3886.
[5] Bo Jiao, Zhaoxin Wu*, Yang Dai, Dongdong Wang, Xun Hou, Sodium borohydride as an n-type dopant in tris(8-hydroxyquinoline) aluminium thin film. Journal of Physics D-Applied Physics. 42. 2009.
[4] Xinwen Zhang, Zhaoxin Wu*, Dongdong Wang, Dawei Wang, Xun Hou, Improving the stability of organic light-emitting devices using a solution-processed hole-injecting layer, Applied Surface Science, 255. 2009. 7970.
[3] Dongdong Wang, Shengyong Chai, Bo Liu, GuoJun Bie. Synthesis of 4-(Dicyanomethylene)-2-methyl-6-[p-(dimethylamino)-styryl]-4H-pyran (DCM) Used for Red OLED, Synth. Chem., 2007, 15. 4. 463-465.
[2] HengShan Dong, DongDong Wang, ChiQiong Jin,The Synthesis of (4E)-N-(4-chlorophenyl)-5-substituted-2-diazo- 3-oxopent-4-enoic Acid Amides. J. Chin. Chem. Soci., 2005, 52, 1011-1016.
[1] HengShan Dong, DongDong Wang, ChiQiong Jin, The synthesis and crystal structureof(4E)-5-(3-chlorophenyl)-N-(4-chlorophenyl)-2-diazo-3-oxopent-4-enoic acid amide, J. Chem. Crystal. 2005, 35(11), 897-901.
(创新港)
